Aislante de pie diabetico ulcerado

ABSTRACT

The Aislante de Pie Diabéico Ulcerado (APDU) is made up of a frame ( 2 ) that covers from the distal portion of the thigh of the affected extremity to the soles of the feet and has spacer rings inside ( 33 - 36 ) of structures made of dry ice (carbon dioxide in a solid state, dry ice), memory foam, among others, atraumatic and non-allergenic when in contact with the user&#39;s skin, the frame ( 2 ) being divisible into at least two shells anterior casing ( 4 ) and posterior casing ( 3 ) that are fixed together by means of a series of hooks for closing the casing ( 20 - 24 ), and the frame ( 2 ) having expandable upper and lower support bands ( 5.29 ) of rubber that surround the extremity of the user; covered by a porous mesh ( 1 ) that simultaneously allows,

TECHNICAL FIELD

The present invention is related to the field of medical devices to be used in the area of diabetology, helcology and dermatology; It is an external device that allows the treatment and healing of Diabetic Foot wounds by isolating the leg, allowing prolonged exposure of the ulcer and/or wound to environmental factors such as Oxygen and other important elements of the environment such as, for example: Ultraviolet Rays, temperature, humidity, among others, helping to keep said wounds dry and free of pathogenic microorganisms, contributing to the rapid proliferation of tissue.

DESCRIPTION OF THE PRIOR ART

Diabetic Foot is called, the complication of the circulation of small blood vessels in diabetic patients with uncontrolled glycemia in a chronic form that, as a result of said uncontrolled, present obstructions in the blood vessels which causes ulcerations, generated by traumatisms, pressure or friction when walking, standing, among others, given the loss of sensitivity. Ulcers are very difficult to close and infections become deep and develop due to decreased defense in this type of patients, giving rise to the proliferation of local microorganisms and the inoculation of pathogens from the environment, which end up resting on the surface of wounds directly and indirectly due to the exposed condition in which they are found.

To date, 8.5% of the world population suffers from diabetes where the prevalence rate of Diabetic Foot pathology ranges from 1.3% to 4.8%, but it should be noted that other prevalence percentages are also estimated (taking into account factors such as sex, age, and type of population) that varies between 4% to 10%. It is said that the most frequent factors are those of neural origin with percentages between 45% and 60% and the truly ischemic ones with 10% to 15%, this leads to a leg amputation every 30 seconds globally.

Treatment for patients who have developed ulcers consists of covering the wounds with gauze and antibiotic cream or spray or gauze only (depending on whether or not there is infection) after being cleaned (with good debridement) to prevent external agents from rest on them and cause infection, facilitating the proliferation of new tissue.

By covering wounds with gauze, contact with external agents is avoided, such as flying organisms, drops of saliva (Flügge droplets), environmental dust, among others, but the same measure creates a local situation that does not allow the wound to heal effectively, because of moisture and lack of oxygen. Covering the ulcers allows the accumulation of serum and debris expelled from the wound, which makes the epithelialization process ineffective and leads to its deepening by the naturally formed broth of bacteria that is concentrated in the affected area.

The use of a blower type fan (hair dryer) in cold mode and blowing directly at the wound, allows it to stay dry, which causes effective closure [this is the key to treatment with the APDU, although the insulation (Medical Device in question) would perform its function without its use, but requiring more time] in conjunction with the use of substances such as topical and/or oral antibiotics, healing creams, vitamins and propolis (substance extracted from bees) in drops; all this allowing a very positive change a week after applying this type of insulation and drying with exposure to environmental factors.

Given this technique, the observations of the conventional treatments (line, according to the Diabetic Foot treatment guidelines) used and after the empirical one, when seeing the difference in the behavior of the wounds in comparison with each other, it was decided to devise a device that it makes it possible to create the ideal environment to keep wounds dry, but also isolated from the environment to avoid possible inoculations and infection biases from it.

There are inventions to prevent diabetics from reaching this stage considered prophylactic, the use of boots that prevent rough contact of the foot with the ground (reducing pressure) or other structures (anti-shock boots), thus avoiding skin discontinuity and subsequent infection given the immune-competing factor of diabetes and open wound exposure. The inventions that exist for the Diabetic Foot for external use are for a stage of prophylaxis regarding ulcers and focused on comfort when they already exist and are called discharge alternatives for the treatment of Diabetic Foot ulcers.

Around twenty medical devices for external use intended for diabetics were found, of which three are insoles, one is a diagnostic device, three are splints, two are anti-shock boots, and two are bandages for topical medication. The mechanism of action of all of them, does not focus on humidity, on avoiding or reducing it, rather, they focus on avoiding (prophylaxis) the occurrence of the wound, avoiding the worsening of the one that is present, direct cleaning application (drainage of pus) and in topical medication.

The inventions found are detailed below: INSOLE FOR THE TREATMENT AND PREVENTION OF ULCERS (ES2611364A1), to cushion the weight and with the ability to adapt to the different shapes of the foot given its special porosity; INSOLE FOR THE PROTECTION OF DIABETIC FOOT (MX2017002122A), insole with load redirection to avoid pressure, friction and that has antibiotic nanoparticles; APPARATUS FOR THE DIAGNOSIS OF DIABETIC FOOT (2019008461A), diagnostic device that allows predicting the development of Diabetic Foot through vibrations that display eccentric waves emitted by a motor; PERSONALIZED FOOT ORTHESIS (US005197942A), an invention that allows atraumatic mobility of the patient and at the same time, behind an open space, admits the entry of air to improve healing; ORTHOPEDIC PROTECTION AND SPLINT MEDICAL BOOT (US005609570A), is an orthopedic shoe that allows the foot to be cushioned to avoid injuries; MEDICAL FOOT FOR PATIENT WITH DIABETIC FOOT (US006083185A), being basically the same as the previous one, the cushioning area contains a fluid to reduce pressure; METHODS AND APPARATUS FOR THE TREATMENT OF PLANTAR ULCERS (US20020095105A1), is a device designed to treat plantar ulcers in patients with diabetic neuropathy. It achieves its objective by minimizing the weight of the body on the ulcer and avoiding the natural curvature of the foot on its axis when moving; WOUND HEALING SYSTEM AND METHOD OF USE (US20020138030A1), it allows the load to be released on the plantar base of the foot and allows automatic drainage in areas with ulcers thanks to a device designed for this purpose; METHOD AND APPARATUS FOR THE TREATMENT OF PLANT ULCERS AND DEFORMITIES OF THE FOOT (US20100204631A1), this device allows to cure plantar ulcers but also allows to correct deformities in cases of orthosis; PHARMACEUTICAL COMPOSITION AND DEVICE FOR THE PREVENTION, TREATMENT AND HEALING OF ULCERS IN DIABETIC FOOT AND OTHER WOUNDS, WHICH INCLUDES SNAIL SILME OF THE CRYPTOPHALUS ASPERSUS OR HELIX ASPERSA MULLER SPECIES AND PHARMACEUTICALLY ACCEPTABLE CARRIERS AND/OR ADDITIVES (US2029/0310), and US2029/03A practically a sock impregnated with medicines; SOCKS FOR DIABETICS (CN201718478U), SOCKS (JP2009518554A), stocking characterized by applying positive ions to feet that have bony prominence and to release the foot from pressure by taking them out; TCC-EZ DIABETIC FOOT ULCER TREATMENT SPLINT SYSTEMS AND ORTHOPEDIC APPLIANCES (U.S. Pat. No. 3,955,565A, 128/89 R 128 DIG/20), as its the name indicates it, it is an orthopedic device which provides protection to the lower limb of the patient.

DESCRIPTION OF THE INVENTION

The Aislante de Pie Diabéico Ulcerado (APDU) is a device designed to improve the healing of ulcers triggered by the disease called Diabetic Foot. The way in which this improvement is achieved is through the creation of a favorable environment for this purpose after an indirect mechanism that allows the fastest resolution of the wounds, since there is greater exposure to daylight, long contact with oxygen, a blockage to the invasion of biological entities such as: flies, mosquitoes, fungi, and bacteria and/or viruses contained in saliva droplets and those inert materials such as dust that interfere with the healing process.

The design of this device is pleasing to the eye, so it would be well received by patients and its ergonomic shape allows a satisfactory rest, key to any recovery from diseases.

For this, the framework of the Aislante de Pie Diabéico Ulcerado is made up of a posterior casing and an anterior casing that cover from the distal portion of the thigh of the affected extremity to the soles of the feet and that has support areas on contact with the user's skin, the frame being divisible into at least two parts that are fixed to each other by means of a series of hooks for joining the shell which are placed on the internal and external sides of said frame. Regarding the support areas that are in contact with the user's skin, these have the shape of continuous and discontinuous circles.

The first of all, a continuous ring, is found in the distal portion of the thigh above the knee. It is a wide ring of rubberized material that they also have vertical hollow female-type structures with a blunt vertex closed at the top and open at the bottom where the bars are inserted device verticals, two internal sides, two external sides, one front and one back. The other rings, with the exception of the last one (located in the ankle area), are made up of four quarter moons that give rise to a discontinuous ring. These four quarter moons are arranged on the face internal side of the carcass as follows: internal side, external side, anterior and subsequently. It should be noted that those placed on the sides are divisible in two where one of the parts corresponds to the casing rear and the other part to the front casing. The thickness of the above quarter moons can vary in a technical and scientific sense, to guarantee utility and safety.

As for the ankle area, it corresponds to a complete rubberized ring similar to the upper one (the first) where instead of having vertical hollow structures with a closed upper vertex and an open lower end that receives the vertical bars, it has a structure that is It couples rigidly with the internal parts of those areas in the, form of hinges that are joined by a rigid pin. In this ring the bars are not coupled, rather, they are attached to the ring through the mentioned hinges. One part fixed to the bars and the other fixed to the ring.

The material of these supports is similar to dry ice (carbon dioxide in a solid state), memory foam, among other materials that allow atraumatic and non-allergic contact.

At the rear of the casing, at the height of, between the upper and lower portion of the leg, there is a structure called the Rest Support Base Assembly, which allows the leg to rest, if the user is seated. or lying down. It is made up of two round bars with slots on the sides (two in number) with an opening distance that does not reach the ends and a parallel distance of 90 degrees between them and that allow a rigid and thin sheet to be coupled in the slots giving place to the APDU support base. Also, by means of rigid adhesion supports attached to said bars, they are upper, middle and lower coupled to the rear casing of the APDU. The final result is two rigid bars joined by a thin and rigid flat sheet that joins both bars and six supports. In the posterior casing, a portion that corresponds to the area of the gastrocnemius muscles with a convex outer face and a concave inner face where the latter receives a pad that provides comfort in that area. Similar to this, in the ankle area we find another area with the same characteristics, but with smaller dimensions. The pads have the ability to be attached or removed on demand.

The internal face of the base of the support assembly is parallel to the popliteal area where the pad with the largest tray is located.

Continuing with the description, followed by the previously mentioned adapters, we find six bars arranged vertically or cephalad-caudal in frontal, posterior and lateral mode, the latter being internal and external.

The front and rear bars go down to their position at the level of the plantar base where they turn forwards or backwards, in the case of the rear and front bars respectively, joining in the heel area on the sole of the foot. Each one of these bars complements the bars arranged laterally, thus forming the casings. The heel area is delimited by a circle of support, the posterior external lateral bar and the internal posterior lateral bar and the lower part, delimited by three plantar crossbars and a lower plantar bar (which is a continuation of the frontal bar). that crosses them perpendicularly giving rise to the plantar base. Oval-shaped plantar crossbars, a frontal bar, a bar on the midline of the lower plantar bar next to perpendicular bars that cross the midline of the plantar crossbars form the structure that covers the foot in the Insulator.

The Isolator incorporates a fan that allows a dry wound, key to recovery and increased proliferation of tissues. Ventilation can be by a fan designed for this purpose or provided by a fan type hair dryer (blower) in cold mode in conjunction (combination) with the use of substances such as topical and/or oral antibiotics, healing creams, vitamins and propolis in drops (substance extracted from bees); all this allowing a very positive change weeks after applying this technique since it allows an effective tissue proliferation. The fan can be held by a fastening strap that keeps it adhered to the casing and that allows it to be positioned between the plantar area and the back of the foot, where it is needed and fixed by means of a closing clasp.

The fan also integrates a fluorescent lamp that emits ultraviolet light that contributes to the treatment of wounds by stopping the growth of microorganisms and serving as prophylaxis regarding opportunistic entities. The turning on both the fan and the fluorescent lamp is done by means of a ticking on/off switch. The lamp fluorescent lamp integrates an automatic activation timer that allows a light emission intermittently. The fan is powered by a power source AC power including a long power supply cord and/or batteries for greater independence of movement of the patient.

BRIEF DESCRIPTION OF THE DRAWINGS

In FIG. 1 , an exploded view (exploded view) of the Aislante de Pie Diabéico Ulcerado (APDU) with its components.

In FIG. 2 , right side view of the APDU without insulating mesh.

In FIG. 3 , right side view of the APDU with mesh showing part of its components.

In FIG. 4 , right isometric view of the APDU, without showing the user and part of their components.

In FIG. 5 , left isometric view, without mesh, with user, its parts and components.

In FIG. 6 , front view of the Aislante de Pie Diabéico Ulcerado.

In FIG. 7 , front view of the fan, fluorescent lamp and its parts components (batteries/cable and power supply).

DETAILED DESCRIPTION OF THE INVENTION

The Aislante de Pie Diabéico Ulcerado (APDU) is a medical device that is placed on the leg as a frame (2) made up of a rear casing (3) and a front casing (4) that covers from the distal portion of the thigh (above the knee) from the affected limb to the soles of the feet.

The APDU made up of a rear casing (3) and an external front casing (4) that adjust to the leg and foot allows said anatomical elements to be isolated, from the environment by means of a mesh (1) type of mosquito netting and/or fabric for women's stockings (panti stocking type) very porous, with tiny holes that rests and extends over the casing, giving rise to a delimitation that prevents the entry of external pathogens. The way in which the device is attached to the leg is through contact points that serve as support (5,24) giving firmness and immobility and through spacers (39-60), which allow stability, the latter made of a material semi-rigid, comfortable and hypoallergenic, such as: Viscoelastic foam (memory foam), Carbonic Snow, among others

The casing or frame that constitutes the APDU can be easily disassembled to allow sanitization of the leg, the foot, or both, by removing the mesh (1) that covers said frame (2), since it is disposable, so it can be replaced in the reusable version or it can be attached to the frame (2) in its disposable version, then, the total exposure of the member is achieved by separating the rear casing (3) from the front casing (4) with the removal first, of the closing hooks of casing (20-24) found on both sides of it.

In a cephalo-caudal description, an expandable band support is observed that corresponds to the upper support (5), it has six female adapters (7-12), made of a material that resists pressure, located equidistant as follows: front adapter (7), rear adapter (8), two internal side adapters (9,10) and two external side adapters (11,12). These adapters have a closed upper end and an open lower end that receive the so-called vertical bars that, according to their location, will receive the name according to the axis and specific position.

Next we find six bars that, depending on the version, these will be made of plastic or another rigid and light material such as aluminum. Depending on the arrangement and combination of materials, there is a disposable and a reusable version. The bars are arranged as follows: an anterior vertical bar (13); four lateral vertical bars that are: the anterior internal vertical bar (14), the posterior internal vertical bar (15), the anterior external vertical bar (16), the posterior external vertical bar (17) and a descending posterior vertical bar (18). The bars, anterior vertical (13) and descending posterior vertical (18) are directed downwards with respect to their position from the level of the upper ring (5) to the foot and at the level of the plantar base (19) they perform a turn; the descending posterior vertical bar (18) from behind towards the front and the anterior vertical bar (13) towards the back, making a false union of said bars at the level of the heel area of the foot. Where they make the union of the vertical posterior descending (18) and anterior (13) bars, each one of these bars represents the complement of the bars arranged laterally and that will give rise to the formation of one or the other half of the anterior carcass (3) and/or rear casing (4).

Continuing with the cephalo-caudal direction, a set of spacers can be seen that together form the discontinuous rings of spacers (33-36). In the case of the rear shell (3), each spacer is attached to three bars, the rear outer vertical bar (17), the rear inner vertical bar (15) and the descending rear vertical bar (18) and the other spacers in the case of the front shell (4), also three bars: the anterior external vertical bar (16), the anterior internal vertical bar (14) and the anterior vertical bar (13). In this way, the spacers are arranged to form a discontinuous ring in the space between the upper support (5) and the lower support (29). 15 There are four discontinuous rings found in the mentioned space. One below the knee, ring A (33), another at the level of the gastrocnemius muscles, ring B (34) where this has the peculiarity of not having posterior support since the leg rests on the large pad (26) placed there, the third discontinuous ring of separators, ring C (35) placed in the area between the gastrocnemius muscles and the ankle area and a D ring (36) placed in the ankle area, also with the particularity of not having a posterior separator. These separators depending on the ring to which they belong, will be placed the letter of their level and next to it with the initials DEL, to indicate forward; POS, to indicate later; LATi-DEL and LATiPOS, to indicate that it is on the front or rear internal side respectively and LATeDEL and LATePOS to indicate that it is on the front or rear external side in the same way, this accompanied by the letter of the ring to which they belong; example: BLATiDEL(45).

The first ring, ring A (33) located below the knee, in the upper third of the leg, is formed by four quarter moons that serve as separators (37-42) where those corresponding to the sides are divided into two front (40.41) and two rear (39.42) each attached to the casing on the inside. Fora good understanding of this part of separator rings, it is enough to describe one of them because, despite having a certain peculiarity regarding the absence of the rear separator at certain levels, it will be enough to understand the legend exposed in the marked drawings. Ring A, located between the knee and above the gastrocnemius muscles, has four quarter moons, the front separator A (37), one posterior, the posterior separator A (38), two internal ones; separator A LATiPOS (39) and separator A LATiDEL (40), and two external ones; separator A LATeDEL (41) and separator A LATePOS (42).

The shape of the foot is made up of five almost rounded rings (66,67,68,69,70) where three of them locate their hole perpendicular to the front face of the area that houses the heel, front, middle and rear rings (66,67,68), the other two rings (69,70) are transversally where their hole points parallel to the face of the plantar base; upper plantar ring (69) and lower plantar ring (70). The heel zone is delimited in the lower portion of the leg superiorly by the posterior hoop (68), laterally by two bars, the posterior external vertical bar (17) and the posterior internal vertical bar (15). In the lower part, three plantar crossbars: anterior, middle and posterior respectively (73,74,75) and a plantar inferior sagittal bar (71) that crosses them perpendicularly, thus giving rise to the plantar base (19). Note that an optional insole space 76 is left one-half to one inch between the plantar surface and the inner face of the APDU plantar shape to add an insole for the user's foot if desired.

Some casing closing hooks (20,21,22,23,24) allow the approximation of the two casings that make up the APDU (3,4). One part of the hooks is located at the front and the other at the back. The location of each of them is on the external and internal vertical bars (14-17) at the level of the following structures: ring B (34) and ring C (35), close to the ankle area (87) and in the plantar base at the level of the lower plantar rim (70).

The APDU also comes with a fan (77) that blows air directly into the wound in order to keep it dry. The fan (77) can be attached to a belt; fan retaining strap (78) and sticks to the case firmly. It can work with an AC power supply (Alternating Current) (79) or through batteries for DC power (Direct Current) (80). The power supply cable (81) allows mobility given its length, greater than 5 meters.

The fan (77) with blades (82) that blow direct air also has a fluorescent lamp (84) on the front that emits ultraviolet light, which has a timer that allows it to turn on and off automatically. Said ultraviolet light has the function of contributing to prophylaxis and treatment, stopping the growth of microorganisms and helping to eliminate what is already there. A fan fastening strap (78) that has the fan (77) can be positioned according to where it is needed, such as moving it from the plantar area to the dorsal part of the foot. Its position is fixed thanks to a closing clasp (86) made of resistant material that can only be attached by pressing on the sides of the head once they are joined. A ticking on/off switch on the sides of the fan allows fan activation; fan switch (83) while another tick-tock will be in charge of activating the ultraviolet light; ultraviolet light switch (85).

The APDU has a support zone that allows the patient to rest his leg either sitting or lying down, this is the rest support base assembly (CBAD) (59). The CBAD is made up of bars for the support base (60) which are two long tubes that have two parallel slots that, seen in a cross section, form an angle of 90 degrees, one of the slots; the adhesion slot for the rectangular flat base (62) allows the union between both bars (60) through the rectangular flat base of the support base (63), the other slot; the adhesion slot for support dockable bar (61) allows the union of the adhesion supports of the base assembly (64) that are a total of three pairs so that these in turn adhere to the rear casing (3) giving rise to the set of support base as such (59).

In the back case (3) there are four structures: a large pad tray (25), a large pad (26), a small pad tray (27) and a small pad (28). The large pad tray (25) located at the level of the gastrocnemius muscles is concave on the inside and slightly convex on the outside. On its internal face rests a pad, a large pad (26) that will serve as a support for the leg when the patient is sitting or lying down. Said pad will maintain its position thanks to a glue for such purposes. The support area located at ankle level will have the same characteristics, where we will have the small tray for the pad (27) and the small pad (28) respectively.

PARTS OF THE DIABETIC FOOT ISOLATOR

-   1. Mesh -   2. Frame -   3. Rear casing. -   4. Front casing -   5. Top support. -   6. Expandable upper support band. -   7. front female adapter -   8. rear female adapter -   9. Front internal female adapter -   10. Rear internal female adapter -   11. Old External Female Adapter -   12. Rear External Female Adapter -   13. previous vertical bar -   14. Anterior internal vertical bar -   15. Rear internal vertical bar -   16. Anterior external vertical bar -   17. Rear external vertical bar -   18. Descending posterior vertical bar -   19. Plantar base -   20. Housing closing hook A -   21. Housing closing hook B -   22. Closing hook casing C -   23. Housing closing hook D -   24. Closing hook casing E -   25. Large Pad Tray -   26. big pad -   27. small pad tray -   28. small pad -   29. bottom bracket -   30. Bottom bracket expandable band -   31. Bottom Bracket Attachable Assembly -   32. dockable set bar -   33. A-ring -   34. B-ring -   35. C-ring -   36. D-ring -   37. Spacer A front -   38. Separator A posterior -   39. LATiPOS separator -   40. Separator A LATiDEL -   41. Separator A LATeDEL -   42. Separator A LATePOS -   43. Front spacer B -   44. Separator B LATiPOS -   45. Separator B LATiDEL -   46. Separator B LATeDEL -   47. Separator B LATePOS -   48. Front C spacer -   49. Separator C rear -   50. Separator C LATiPOS -   51. Retractor C LATiDEL -   52. C separator LATeDEL -   53. LATePOS C tab -   54. Front D spacer -   55. Separator D LATiPOS -   56. Retractor D LATiDEL -   57. Separator D LATeDEL -   58. D LATePOS separator -   59. Assembly of the support base for rest. -   60. Bars for support base. -   61. Attachment groove for support docking bar. -   62. Adhesion groove for rectangular flat base -   63. Rectangular flat base of the support base. -   64. Base Assembly Attachment Brackets -   65. Large pad tray. -   66. Forefoot hoop -   67. mid foot hoop -   68. hind foot hoop -   69. upper plantar hoop -   70. Lower plantar hoop -   71. Inferior plantar sagittal bar. -   72. Junction of posterior vertical and anterior vertical bars -   73. Anterior Plantar Crossbar -   74. Median Plantar Crossbar -   75. Posterior Plantar Crossbar -   76. Space for optional template -   77. Ventilator -   78. fan retainer strap -   79. fan AC power supply -   80. Power supply cable -   81. Accessory batteries for ventilator -   82. fan blades -   83. fan switch -   84. fluorescent fan lamp -   85. Lamp switch -   86. fan closure clasp -   87. Ankle -   88. base of support -   89. rubberized hinges -   90. hinge pin 

1. The Aislante de Pie Diabéico Ulcerado (APDU), made up of a frame (2) being divisible into at least two shells: anterior shell (4) and posterior shell (3), the latter with a set of support base for rest (59). The shells are fixed to each other by means of a series of shell closing hooks (20-24) and which have spacer rings (33-36) inside, made of atraumatic material such as viscoelastic foam, memory foam, dry ice (dry ice), among others; nonallergic to contact with the user's skin, and the frame (2) having two supports, an upper support (5) and a lower support (29), both made of an elastic band (30.91) that surround the limb of the user above the knee and at the level of the ankle to give firmness to the frame (2). The frame (2) arranging on the casings a relocatable fan (77), a lamp; fluorescent fan lamp (84) that emits ultraviolet light and a porous mesh (1) that is placed around the frame (2).
 2. Aislante de Pie Diabéico Ulcerado, according to claim 1 characterized in that the frame (2) has six vertical bars, an anterior vertical bar (13), four lateral bars [posterior internal vertical bar (15), anterior internal vertical bar (14), anterior external vertical bar (16) and posterior external vertical bar (17), a descending posterior vertical bar (18) and four spacer rings (33-36).
 3. Aislante de Pie Diabéico Ulcerado, according to claim 1, characterized in that it has a set of support base for rest (59) in the shape of a rectangle formed by two support bars for rest having a slot at their longest ends where two bars for the support base (60), placed one on each side, joined by a flat rectangular base of the support base (63) to form the support base (88).
 4. Aislante de Pie Diabéico Ulcerado, according to claim 1, characterized in that it has a fan (77) that incorporates a fan fastening strap (78) that is firmly fixed to the frame (2) and an ultraviolet light that emits its rays. in the direction of the fan position, being powered by a battery (81) or an AC power supply (79) connected to the mains.
 5. Aislante de Pie Diabéico Ulcerado, according to claim 4, characterized in that the fan (78) is made up of tiny blades that blow air towards the wound.
 6. Aislante de Pie Diabéico Ulcerado, according to claim 1, characterized in that it comprises a porous mesh (1) type mosquito net or highly porous female stocking (stocking pantyhose), with tiny holes that rests and extends on the outside of the frame (2), which is made up of a front casing (4) and a posterior casing (3).
 7. Aislante de Pie Diabéico Ulcerado, according to claim 4, is characterized in that it has a fluorescent lamp that is adjusted in front of the fan (78) and emits ultraviolet rays in the direction of the wound.
 8. Aislante de Pie Diabéico Ulcerado, according to claim 1, characterized in that fixed to the internal face of the rear casing (3) is a large tray for a large pad (25) where a large pad (26) will be placed and at the level of the ankle, a small tray (27) for small pad (28). Both structures, large and small tray for pads (25,27) fixed to the descending posterior bar (18).
 9. Aislante de Pie Diabéico ico Ulcerado, according to claim 8, characterized in that the pads, large (26) and small (28) have two areas: a front side lined with a non-allergenic fabric and the back side with a side smeared with adhesive that allows it to be kept fixed, but with the ability to be removed.
 10. Aislante de Pie Diabéico Ulcerado, according to claim 1, characterized in that in the area where the ankle is located there is an expandable band, lower support (29) that has rubberized hinges (89) fixed to the expandable band of the lower support (30) and to the frame (2), both parts of the hinges, joined by a pin (90).
 11. Aislante de Pie Diabéico Ulcerado, according to claim 1, characterized in that the shape of the foot is made up of five rings (66-70) where three of them, anterior, middle and posterior rings (66,67,68) locate their hole parallel to the hollow on the front face of the area that houses the heel, the other two rings, the upper and lower plantar ring (69,70), are transversally where their hole points parallel to the face of the plantar base (19). The heel zone is delimited in the lower portion of the leg superiorly by the lower support (29), laterally by two bars, the posterior external vertical bar (17) and the posterior internal vertical bar (15). In the lower part, three plantar crossbars (73,74). 